US2375657A - Electrode holder - Google Patents

Electrode holder Download PDF

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Publication number
US2375657A
US2375657A US491979A US49197943A US2375657A US 2375657 A US2375657 A US 2375657A US 491979 A US491979 A US 491979A US 49197943 A US49197943 A US 49197943A US 2375657 A US2375657 A US 2375657A
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Prior art keywords
insulation
shell
metal
jaw
opening
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Expired - Lifetime
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US491979A
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Honel A Jackson
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    • BPERFORMING OPERATIONS; TRANSPORTING
    • B23MACHINE TOOLS; METAL-WORKING NOT OTHERWISE PROVIDED FOR
    • B23KSOLDERING OR UNSOLDERING; WELDING; CLADDING OR PLATING BY SOLDERING OR WELDING; CUTTING BY APPLYING HEAT LOCALLY, e.g. FLAME CUTTING; WORKING BY LASER BEAM
    • B23K9/00Arc welding or cutting
    • B23K9/24Features related to electrodes
    • B23K9/28Supporting devices for electrodes
    • B23K9/282Electrode holders not supplying shielding means to the electrode

Definitions

  • the type of insulation formerly used consisting of a relatively thick layer of insulating material molded intochannel shape positioned over the clamping jaws and secured thereto, was fairly satisfactory so long as it withstood the heat developed by the electrode arc and so long as it remained intact despite blowsagainst other objects to which it was subjected during normal usage by the operator.
  • My'invention involves sheathing in metal a jaw insulating shroud to form a composite insulating member. Accomplishing' this in relatively simple fashion by means easily manufactured and assem bled, and readily secured firmly to the jaws in rigid juxtaposition thereto so that it will remain rigid therewith over long periods of rough handling, Presents certain problems;
  • the means for securing the insulation to each jaw preferably a screw threaded into the jaw itself as generally used in the past, must be insulated from the metal sheathing or shell to prevent arcing on contact of the sheathing with exterior metal.
  • the expedient of providing an opening in the metal sheathing of considerably greater diameter than the diameter of the small concentric opening in the insulation layer below the sheathing through which the fastening screw passes, and countersinking the aperture in the insulation layer so that the head of the screw will lie flush therewith but not contact the surrounding wall of the aperture in the metal sheathing has not proved satisfactory.
  • One reason is because of the fact that the screw head bears entirely on the insulation material which absorbs the entire stress required to hold the composite insulating member firmly in place over the jaw of the holder.
  • the composite insulating member comprising an outer sheathing of metal and an under layer of insulation material is'so constructed and arranged that the stress set up by the screw head when the member is secured to the jaw of a holder is absorbed entirely by the metal of the sheathing, although such metal is on the outside and the insulation is on the underside when the member is screwed into position over the jaw of a holder.
  • FIG 1 is a side elevation of a tool embodying my invention
  • Fig. 2 is an enlarged top plan view of the clamping jaw of a tool equipped with my improved insulating member
  • Fig. 3 is a section along 3-3 of Fig. 2, and
  • Fig. 4 is an exploded view illustrating in perspective the two component elements of the composite member.
  • Fig, 1 illustrates a more or less conventional electrode holder comprising upper and lower arms pivoted by means of a pin lllto provide upper and lower clamping jaws l2 and M, respectively, and upper and lower operating handles l6 and i8, respectively.
  • the upper handle is shrouded with insulation 20 of channel shape which islaid over the outerla'ce of the'handle and secured thereto in a manner well known in the art and particularly illustrated in Patent No. 2,300,295.
  • the side walls of the channel overhang the side walls of the operating handle and protect the operator from contact with the metal of the handle on each side as well as on the outer surface thereof, as more clearly illustratedin Fig.3.
  • Similar channel-shaped insulation 22 is secured by means of screw 24 over the under face of that portion of the lower operating handle immediately to the rear of the clamping jaw.
  • the rear or free end of lower operating handle I8 is provided with conventional means for coupling the same into an electric circuit and is shrouded by a gripping sleeve 26 of insulating material, thus completing insulation of the tool on its outer surfaces except for the clamping jaws l2 and I4.
  • Opposite ends of a helical spring 28 are seated in conventional manner against the opposed inside faces of upper and lower operating handles it and I8 and serve to force the jaws together for holding an electrode indicated in Fig. l by thenumeral 30.
  • the spring may be insulated in conventional fashion, telescoping cups 32 and 34 of insulating material being indicated for purposes of illustration in Fig. l.
  • the composite jaw insulating members comprising my invention are identical for both upper and lower clamping jaws.
  • Each comprises an outer metallic shell 36 having a depending skirt 38 extending around the margin thereof, the shell being rounded at the nose and open at its rear end.
  • an opening adapted to receive fastening screw 40 Centrally disposed in the top face of the shell is an opening adapted to receive fastening screw 40, which opening is so positioned as to be in alignment with a threaded opening in the jaw of the holder to receive the screw when the insulation member is positioned over the outer face of the jaw.
  • the opening in the top of the shell is formed by means of a depending annular boss broadly indicated by the numeral 42 so formed as to provide a countersink 44 flush with the top face of the shell and of greater diameter than the head 60 of the fastening screw to be inserted therethrough.
  • the lower part of the inside face of annular boss 42 is tapered radially inwardly as indicated at 46, the taper angle being substantially that of the taper of the under face of the head of the fastening screw.
  • the opening 48 at the end of the taper on the inside of the shell is of greater diameter than the diameter of the fastening screw 40.
  • the depth of the boss is somewhat less, preferably, than the depth of the screw head 60 to be seated therein for reasons which will be apparent.
  • a layer of insulation Seated within the metallic shell is a layer of insulation broadly indicated by the numeral 50 which conforms in contour to that of the shell and may be flanged as indicated at 52 around the free edge of its skirt 54 to provide.
  • the rear of the insulation layer may be flanged around its rear end as indicated at 56, and the depth of this flange, like the flange 52, is preferably the thickness of the adjacent metal to provide smooth surfaces throughout over the exterior of the composite member and protect the outer edge of the shell skirt 38.
  • the thickness of the insulation underlying the top face of the metallic shell 36 is somewhat greater than the depth of annular boss 42 and extends across the under face of such boss as indicated at 58, up over the tapered wall 46 on the inside of the boss and into countersink M lying in the plane of the top face of the metal shell.
  • the thickness of the in ulating material thus lining the inner wall of the opening formed by annular boss 42, and the diameter, shape and size of screw head 60, are such that the outer surface of the screw head bears continuously upon the surrounding insulation material when the same is inserted through the opening and threaded down into the jaw to fasten the composite assembly over the outer face thereof, the top of the screw head lying flush with or a little below the top face of the metal shell 36.
  • the screw head 60 is insulated completely from contact with the metal sheathing surrounding it but the stress exerted by the tapered face of the screw head to retain the composite insulating member firmly in position over the clamping jaw is absorbed by the metal of annular boss 42 and not by the insulating material in immediate contact therewith. Transfer of the fastening stress and strain from the insulation to the metal boss 42 substantially eliminates the danger of injury to that part of the insulation against which the head of the fastening screw bears and materially lengthens the useful life of the jaw insulation.
  • the metal shell is com pletely insulated from the clamping jaw and can absorb rough treatment over a long period of time without injury to the underlying layer of insulation.
  • the insulation layer may be associated with the metallic sheathing in any desired manner, preferably being flowed into position with the use of suitable molds and allowed to harden.
  • An insulating member comprising a channel-shaped metal shell, a portion of the wall of said shell extending inwardly to provide an an nular boss forming an opening in the shell, said boss being so shaped that the wall of said opening tapers inwardly, and insulation material juxtaposed substantially coextensively with the inside of the channel of said shell, said insulation material being of a thickness somewhat greater than the depth of said boss and extending over the inside face thereof and over the wall of the opening formed thereby to form an opening adapted to receive the enlarged head of a metal fastening member and insulate the same from the metal of said boss.
  • An insulating member for the clamping jaw of an electrode holder comprising an open channel-shaped metal shell having a plane upper face and a skirt extending normally thereto around the entire margin thereof except a portion adapted to receive the clamping jaw, 21 portion of the upper face of said shell extending inwardly to provide an annular boss forming an opening in the shell, said boss being so shaped that the inner face of the opening therethrough tapers inwardly of the shell, and insulation material juxtaposed substantially coextensively with the inside of said shell, said insulation material extending over the inside face of said boss and over the tapered inner face of the opening formed therethrough.

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  • Engineering & Computer Science (AREA)
  • Physics & Mathematics (AREA)
  • Plasma & Fusion (AREA)
  • Mechanical Engineering (AREA)
  • Insulating Bodies (AREA)

Description

May 1945. H. A. JACKSON 2,375,657
ELECTRODE HOLDER Filed June 16, 1943 Znvnton Honel flJac/Son.
Patented May 8, 1945 UNITED STATES it-TENT OFFICE ELECTRODE Herman Honel A. Jackson, Detroit, Mich. Application June 16, 1943, Serial N 0. 491,079
2 Claims.
that the tool will have a longer useful life in operation without need for replacement of this important structural part of the combination.
Heretofore common practice has been to shroud the clamping jaws of the tool with insulation ma terial of channel shape in substantially the same manner that the operating handles of the toolare insulated; This type of insulation shrouding is disclosed incidentally in the drawing of this application, and is illustrated and described in detail in Patent N 0. 2,300,295
The type of insulation formerly used, consisting of a relatively thick layer of insulating material molded intochannel shape positioned over the clamping jaws and secured thereto, was fairly satisfactory so long as it withstood the heat developed by the electrode arc and so long as it remained intact despite blowsagainst other objects to which it was subjected during normal usage by the operator.
High heat developed in the metal jaw of the holder and transmitted to an insulation shroud of the type above described in contact therewith causes breakdown of the resinous binder con stituent of the insulating material and consequent distintegration of the shroud. This necessitates frequent replacement with consequent loss of time and labor. Normal usage ofsuch a holder entails rough handling of the tool, and damage to an exposed insulation shroud by reason of breaking or cracking is so frequent that replacement, with consequent additional cost and loss of time and labor, is a distinct problem with which the industry has heretofore been forced to cope.
My'invention involves sheathing in metal a jaw insulating shroud to form a composite insulating member. Accomplishing' this in relatively simple fashion by means easily manufactured and assem bled, and readily secured firmly to the jaws in rigid juxtaposition thereto so that it will remain rigid therewith over long periods of rough handling, Presents certain problems;
The means for securing the insulation to each jaw, preferably a screw threaded into the jaw itself as generally used in the past, must be insulated from the metal sheathing or shell to prevent arcing on contact of the sheathing with exterior metal. The expedient of providing an opening in the metal sheathing of considerably greater diameter than the diameter of the small concentric opening in the insulation layer below the sheathing through which the fastening screw passes, and countersinking the aperture in the insulation layer so that the head of the screw will lie flush therewith but not contact the surrounding wall of the aperture in the metal sheathing has not proved satisfactory. One reason is because of the fact that the screw head bears entirely on the insulation material which absorbs the entire stress required to hold the composite insulating member firmly in place over the jaw of the holder. This stress set up in the insulation material together with the heat developed therein when the tool is in use tends to crack and cause disintegration ately surrounding the screw head and of that portion of the insulation layer immediagainst which it bears, thus necessitating replacement of the insulation material.
- An important feature of my invention resides in the fact that the composite insulating member comprising an outer sheathing of metal and an under layer of insulation material is'so constructed and arranged that the stress set up by the screw head when the member is secured to the jaw of a holder is absorbed entirely by the metal of the sheathing, although such metal is on the outside and the insulation is on the underside when the member is screwed into position over the jaw of a holder.
Various other objects and meritorious features of the invention will become apparent from the following description taken in conjunction with the drawing, wherein like numerals refer to like parts throughout the several figures, and wherein:
Figure 1 is a side elevation of a tool embodying my invention;
Fig. 2 is an enlarged top plan view of the clamping jaw of a tool equipped with my improved insulating member;
Fig. 3 is a section along 3-3 of Fig. 2, and
Fig. 4 is an exploded view illustrating in perspective the two component elements of the composite member. v
Referring now to the drawing, Fig, 1 illustrates a more or less conventional electrode holder comprising upper and lower arms pivoted by means of a pin lllto provide upper and lower clamping jaws l2 and M, respectively, and upper and lower operating handles l6 and i8, respectively. The upper handle is shrouded with insulation 20 of channel shape which islaid over the outerla'ce of the'handle and secured thereto in a manner well known in the art and particularly illustrated in Patent No. 2,300,295. The side walls of the channel overhang the side walls of the operating handle and protect the operator from contact with the metal of the handle on each side as well as on the outer surface thereof, as more clearly illustratedin Fig.3.
Similar channel-shaped insulation 22 is secured by means of screw 24 over the under face of that portion of the lower operating handle immediately to the rear of the clamping jaw. The rear or free end of lower operating handle I8 is provided with conventional means for coupling the same into an electric circuit and is shrouded by a gripping sleeve 26 of insulating material, thus completing insulation of the tool on its outer surfaces except for the clamping jaws l2 and I4.
Opposite ends of a helical spring 28 are seated in conventional manner against the opposed inside faces of upper and lower operating handles it and I8 and serve to force the jaws together for holding an electrode indicated in Fig. l by thenumeral 30. The spring may be insulated in conventional fashion, telescoping cups 32 and 34 of insulating material being indicated for purposes of illustration in Fig. l.
The composite jaw insulating members comprising my invention are identical for both upper and lower clamping jaws. Each comprises an outer metallic shell 36 having a depending skirt 38 extending around the margin thereof, the shell being rounded at the nose and open at its rear end.
Centrally disposed in the top face of the shell is an opening adapted to receive fastening screw 40, which opening is so positioned as to be in alignment with a threaded opening in the jaw of the holder to receive the screw when the insulation member is positioned over the outer face of the jaw. The opening in the top of the shell is formed by means of a depending annular boss broadly indicated by the numeral 42 so formed as to provide a countersink 44 flush with the top face of the shell and of greater diameter than the head 60 of the fastening screw to be inserted therethrough. The lower part of the inside face of annular boss 42 is tapered radially inwardly as indicated at 46, the taper angle being substantially that of the taper of the under face of the head of the fastening screw. The opening 48 at the end of the taper on the inside of the shell is of greater diameter than the diameter of the fastening screw 40. The depth of the boss is somewhat less, preferably, than the depth of the screw head 60 to be seated therein for reasons which will be apparent.
Seated within the metallic shell is a layer of insulation broadly indicated by the numeral 50 which conforms in contour to that of the shell and may be flanged as indicated at 52 around the free edge of its skirt 54 to provide.
a seat for the bottom of skirt 38 of the metallic shell. The rear of the insulation layer may be flanged around its rear end as indicated at 56, and the depth of this flange, like the flange 52, is preferably the thickness of the adjacent metal to provide smooth surfaces throughout over the exterior of the composite member and protect the outer edge of the shell skirt 38.
The thickness of the insulation underlying the top face of the metallic shell 36 is somewhat greater than the depth of annular boss 42 and extends across the under face of such boss as indicated at 58, up over the tapered wall 46 on the inside of the boss and into countersink M lying in the plane of the top face of the metal shell.
The thickness of the in ulating material thus lining the inner wall of the opening formed by annular boss 42, and the diameter, shape and size of screw head 60, are such that the outer surface of the screw head bears continuously upon the surrounding insulation material when the same is inserted through the opening and threaded down into the jaw to fasten the composite assembly over the outer face thereof, the top of the screw head lying flush with or a little below the top face of the metal shell 36.
Thus the screw head 60 is insulated completely from contact with the metal sheathing surrounding it but the stress exerted by the tapered face of the screw head to retain the composite insulating member firmly in position over the clamping jaw is absorbed by the metal of annular boss 42 and not by the insulating material in immediate contact therewith. Transfer of the fastening stress and strain from the insulation to the metal boss 42 substantially eliminates the danger of injury to that part of the insulation against which the head of the fastening screw bears and materially lengthens the useful life of the jaw insulation. The metal shell is com pletely insulated from the clamping jaw and can absorb rough treatment over a long period of time without injury to the underlying layer of insulation.
The insulation layer may be associated with the metallic sheathing in any desired manner, preferably being flowed into position with the use of suitable molds and allowed to harden.
Having described a preferred embodiment of the invention, various modifications will be apparent to those skilled in the art and for that reason I wish to limit myself only within the scope of the appended claims.
What I claim:
1. An insulating member comprising a channel-shaped metal shell, a portion of the wall of said shell extending inwardly to provide an an nular boss forming an opening in the shell, said boss being so shaped that the wall of said opening tapers inwardly, and insulation material juxtaposed substantially coextensively with the inside of the channel of said shell, said insulation material being of a thickness somewhat greater than the depth of said boss and extending over the inside face thereof and over the wall of the opening formed thereby to form an opening adapted to receive the enlarged head of a metal fastening member and insulate the same from the metal of said boss.
2. An insulating member for the clamping jaw of an electrode holder comprising an open channel-shaped metal shell having a plane upper face and a skirt extending normally thereto around the entire margin thereof except a portion adapted to receive the clamping jaw, 21 portion of the upper face of said shell extending inwardly to provide an annular boss forming an opening in the shell, said boss being so shaped that the inner face of the opening therethrough tapers inwardly of the shell, and insulation material juxtaposed substantially coextensively with the inside of said shell, said insulation material extending over the inside face of said boss and over the tapered inner face of the opening formed therethrough.
HONEL A. JACKSON.
US491979A 1943-06-16 1943-06-16 Electrode holder Expired - Lifetime US2375657A (en)

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Cited By (6)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2519877A (en) * 1947-06-19 1950-08-22 Lawrence H Bevard Electrode holder
US2681969A (en) * 1950-12-26 1954-06-22 Erico Prod Inc Welding electrode holder
DE1044305B (en) * 1956-08-07 1958-11-20 Martin Wells Electrode holder for arc welding with two jaw-like clamping jaws
USD749656S1 (en) * 2014-06-30 2016-02-16 Victor Equipment Company Electrode holder
USD750144S1 (en) * 2014-06-27 2016-02-23 Victor Equipment Company Electrode holder
USD750145S1 (en) * 2014-06-30 2016-02-23 Victor Equipment Company Electrode holder

Cited By (6)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2519877A (en) * 1947-06-19 1950-08-22 Lawrence H Bevard Electrode holder
US2681969A (en) * 1950-12-26 1954-06-22 Erico Prod Inc Welding electrode holder
DE1044305B (en) * 1956-08-07 1958-11-20 Martin Wells Electrode holder for arc welding with two jaw-like clamping jaws
USD750144S1 (en) * 2014-06-27 2016-02-23 Victor Equipment Company Electrode holder
USD749656S1 (en) * 2014-06-30 2016-02-16 Victor Equipment Company Electrode holder
USD750145S1 (en) * 2014-06-30 2016-02-23 Victor Equipment Company Electrode holder

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